static bool TestFile (glslopt_ctx* ctx, bool vertex,
const std::string& testName,
const std::string& inputPath,
const std::string& hirPath,
const std::string& outputPath,
bool gles,
bool doCheckGLSL)
{
std::string input;
if (!ReadStringFromFile (inputPath.c_str(), input))
{
printf ("\n %s: failed to read input file\n", testName.c_str());
return false;
}
if (doCheckGLSL)
{
if (!CheckGLSL (vertex, gles, testName, "input", input.c_str()))
return false;
}
if (gles)
{
if (vertex)
MassageVertexForGLES (input);
else
MassageFragmentForGLES (input);
}
bool res = true;
glslopt_shader_type type = vertex ? kGlslOptShaderVertex : kGlslOptShaderFragment;
glslopt_shader* shader = glslopt_optimize (ctx, type, input.c_str(), 0);
bool optimizeOk = glslopt_get_status(shader);
if (optimizeOk)
{
std::string textHir = glslopt_get_raw_output (shader);
std::string textOpt = glslopt_get_output (shader);
char buffer[200];
int statsAlu, statsTex, statsFlow;
glslopt_shader_get_stats (shader, &statsAlu, &statsTex, &statsFlow);
int inputCount = glslopt_shader_get_input_count (shader);
sprintf(buffer, "\n// inputs: %i, stats: %i alu %i tex %i flow\n", inputCount, statsAlu, statsTex, statsFlow);
textOpt += buffer;
std::string outputHir;
ReadStringFromFile (hirPath.c_str(), outputHir);
std::string outputOpt;
ReadStringFromFile (outputPath.c_str(), outputOpt);
if (textHir != outputHir)
{
// write output
FILE* f = fopen (hirPath.c_str(), "wb");
if (!f)
{
printf ("\n %s: can't write to IR file!\n", testName.c_str());
}
else
{
fwrite (textHir.c_str(), 1, textHir.size(), f);
fclose (f);
}
printf ("\n %s: does not match raw output\n", testName.c_str());
res = false;
}
if (textOpt != outputOpt)
{
// write output
FILE* f = fopen (outputPath.c_str(), "wb");
if (!f)
{
printf ("\n %s: can't write to optimized file!\n", testName.c_str());
}
else
{
fwrite (textOpt.c_str(), 1, textOpt.size(), f);
fclose (f);
}
printf ("\n %s: does not match optimized output\n", testName.c_str());
res = false;
}
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, testName, "raw", textHir.c_str()))
res = false;
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, testName, "optimized", textOpt.c_str()))
res = false;
}
else
{
printf ("\n %s: optimize error: %s\n", testName.c_str(), glslopt_get_log(shader));
res = false;
}
glslopt_shader_delete (shader);
return res;
}
static bool TestFile (glslopt_ctx* ctx, bool vertex,
const std::string& testName,
const std::string& inputPath,
const std::string& outputPath,
bool gles,
bool doCheckGLSL,
bool doCheckMetal)
{
std::string input;
if (!ReadStringFromFile (inputPath.c_str(), input))
{
printf ("\n %s: failed to read input file\n", testName.c_str());
return false;
}
if (doCheckGLSL)
{
if (!CheckGLSL (vertex, gles, testName, "input", input.c_str()))
return false;
}
if (gles)
{
if (vertex)
MassageVertexForGLES (input);
else
MassageFragmentForGLES (input);
}
bool res = true;
glslopt_shader_type type = vertex ? kGlslOptShaderVertex : kGlslOptShaderFragment;
glslopt_shader* shader = glslopt_optimize (ctx, type, input.c_str(), 0);
bool optimizeOk = glslopt_get_status(shader);
if (optimizeOk)
{
std::string textHir = glslopt_get_raw_output (shader);
std::string textOpt = glslopt_get_output (shader);
// append stats
char buffer[1000];
int statsAlu, statsTex, statsFlow;
glslopt_shader_get_stats (shader, &statsAlu, &statsTex, &statsFlow);
sprintf(buffer, "\n// stats: %i alu %i tex %i flow\n", statsAlu, statsTex, statsFlow);
textOpt += buffer;
// append inputs
const int inputCount = glslopt_shader_get_input_count (shader);
if (inputCount > 0)
{
sprintf(buffer, "// inputs: %i\n", inputCount);
textOpt += buffer;
}
for (int i = 0; i < inputCount; ++i)
{
const char* parName;
glslopt_basic_type parType;
glslopt_precision parPrec;
int parVecSize, parMatSize, parArrSize, location;
glslopt_shader_get_input_desc(shader, i, &parName, &parType, &parPrec, &parVecSize, &parMatSize, &parArrSize, &location);
if (location >= 0)
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i] loc %i\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize, location);
else
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i]\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize);
textOpt += buffer;
}
// append uniforms
const int uniformCount = glslopt_shader_get_uniform_count (shader);
const int uniformSize = glslopt_shader_get_uniform_total_size (shader);
if (uniformCount > 0)
{
sprintf(buffer, "// uniforms: %i (total size: %i)\n", uniformCount, uniformSize);
textOpt += buffer;
}
for (int i = 0; i < uniformCount; ++i)
{
const char* parName;
glslopt_basic_type parType;
glslopt_precision parPrec;
int parVecSize, parMatSize, parArrSize, location;
glslopt_shader_get_uniform_desc(shader, i, &parName, &parType, &parPrec, &parVecSize, &parMatSize, &parArrSize, &location);
if (location >= 0)
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i] loc %i\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize, location);
else
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i]\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize);
textOpt += buffer;
}
// append textures
const int textureCount = glslopt_shader_get_texture_count (shader);
if (textureCount > 0)
{
sprintf(buffer, "// textures: %i\n", textureCount);
textOpt += buffer;
}
for (int i = 0; i < textureCount; ++i)
{
const char* parName;
glslopt_basic_type parType;
glslopt_precision parPrec;
int parVecSize, parMatSize, parArrSize, location;
glslopt_shader_get_texture_desc(shader, i, &parName, &parType, &parPrec, &parVecSize, &parMatSize, &parArrSize, &location);
if (location >= 0)
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i] loc %i\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize, location);
else
sprintf(buffer, "// #%i: %s (%s %s) %ix%i [%i]\n", i, parName, kGlslPrecNames[parPrec], kGlslTypeNames[parType], parVecSize, parMatSize, parArrSize);
textOpt += buffer;
}
std::string outputOpt;
ReadStringFromFile (outputPath.c_str(), outputOpt);
if (res && doCheckMetal && !CheckMetal (vertex, gles, testName, "metal", textOpt.c_str()))
res = false;
if (textOpt != outputOpt)
{
// write output
FILE* f = fopen (outputPath.c_str(), "wb");
if (!f)
{
printf ("\n %s: can't write to optimized file!\n", testName.c_str());
}
else
{
fwrite (textOpt.c_str(), 1, textOpt.size(), f);
fclose (f);
}
printf ("\n %s: does not match optimized output\n", testName.c_str());
res = false;
}
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, testName, "raw", textHir.c_str()))
res = false;
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, testName, "optimized", textOpt.c_str()))
res = false;
}
else
{
printf ("\n %s: optimize error: %s\n", testName.c_str(), glslopt_get_log(shader));
res = false;
}
glslopt_shader_delete (shader);
return res;
}
static bool TestFile (glslopt_ctx* ctx, bool vertex,
const std::string& inputPath,
const std::string& hirPath,
const std::string& outputPath,
bool gles,
bool doCheckGLSL)
{
std::string input;
if (!ReadStringFromFile (inputPath.c_str(), input))
{
printf (" failed to read input file\n");
return false;
}
if (doCheckGLSL)
{
if (!CheckGLSL (vertex, gles, "input", input.c_str()))
return false;
}
if (gles)
{
if (vertex)
MassageVertexForGLES (input);
else
MassageFragmentForGLES (input);
}
bool res = true;
glslopt_shader_type type = vertex ? kGlslOptShaderVertex : kGlslOptShaderFragment;
glslopt_shader* shader = glslopt_optimize (ctx, type, input.c_str(), 0);
bool optimizeOk = glslopt_get_status(shader);
if (optimizeOk)
{
std::string textHir = glslopt_get_raw_output (shader);
std::string textOpt = glslopt_get_output (shader);
std::string outputHir;
ReadStringFromFile (hirPath.c_str(), outputHir);
std::string outputOpt;
ReadStringFromFile (outputPath.c_str(), outputOpt);
if (textHir != outputHir)
{
// write output
FILE* f = fopen (hirPath.c_str(), "wb");
if (!f)
{
printf (" can't write to IR file!\n");
}
else
{
fwrite (textHir.c_str(), 1, textHir.size(), f);
fclose (f);
}
printf (" does not match raw output\n");
res = false;
}
if (textOpt != outputOpt)
{
// write output
FILE* f = fopen (outputPath.c_str(), "wb");
if (!f)
{
printf (" can't write to optimized file!\n");
}
else
{
fwrite (textOpt.c_str(), 1, textOpt.size(), f);
fclose (f);
}
printf (" does not match optimized output\n");
res = false;
}
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, "raw", textHir.c_str()))
res = false;
if (res && doCheckGLSL && !CheckGLSL (vertex, gles, "optimized", textOpt.c_str()))
res = false;
}
else
{
printf (" optimize error: %s\n", glslopt_get_log(shader));
res = false;
}
glslopt_shader_delete (shader);
return res;
}
